Adjustable battery capacity distribution cabinet device
By optimizing the battery capacity distribution cabinet structure and adding battery holders, the problem of unreasonable existing battery capacity distribution cabinet structure has been solved, achieving reasonable layout of equipment and lines and stable fixation of batteries, thereby improving safety and work efficiency.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- HUNAN AUTOMOTIVE ENG VOCATIONAL COLLEGE
- Filing Date
- 2025-08-13
- Publication Date
- 2026-07-14
Smart Images

Figure CN224502000U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of battery repair, specifically to an adjustable battery capacity cabinet device. Background Technology
[0002] In the process of power battery repair, the battery needs to be charged and discharged several times; this process is called "capacity testing," and the equipment used to perform this process is the battery capacity testing cabinet. Battery capacity testing cabinets are relatively mature commercial products. Their basic structure is a sheet metal cabinet, with the battery, capacity testing equipment, and power supply equipment arranged sequentially from bottom to top inside. However, in actual use, it has been found that currently available battery capacity testing cabinets have some drawbacks: firstly, the cabinet structure is not reasonable, making the installation and layout of equipment and wiring inconvenient; secondly, the number of batteries that can be placed inside the cabinet is limited, affecting work efficiency, and the lack of battery fixation may cause accidental movement and tipping, posing a safety hazard. Therefore, an adjustable, multi-functional battery capacity testing cabinet device is designed to solve these problems. Utility Model Content
[0003] To address the shortcomings of existing battery capacity separation cabinets, such as unreasonable cabinet structure and unreasonable battery placement methods, this utility model provides an adjustable battery capacity separation cabinet device that solves the above problems.
[0004] An adjustable battery capacity-classifying cabinet device includes a cabinet with a door on the back. Inside, from bottom to top, there are battery holders, a lower partition, a middle partition, and an upper partition. The battery holder includes slide rails, sliders, fixing plates, and fixing knobs. Multiple slide rails are arranged parallel to each other at the bottom of the cabinet and parallel to the door. The same number of sliders slide on each slide rail. The sliders at both ends of each slide rail are equipped with fixing knobs. The fixing plates are perpendicular to the door and fixedly connected to one slider on each slide rail.
[0005] In a preferred embodiment of the adjustable battery capacity-classifying cabinet device provided by this utility model, the fixing plate is not located at the sliders at both ends of each of the slide rails. The top of the fixing plate has a groove arranged along its length. The battery holder includes two slide rails, which are respectively located on opposite sides of the bottom of the cabinet body, near and away from the cabinet door. The fixing knob is located on the top of the slider.
[0006] In a preferred embodiment of the adjustable battery capacity-classifying cabinet device provided by this utility model, the area below the middle partition on the front of the cabinet is open. The upper partition is spaced apart from the panel on the back of the cabinet, the lower partition has a strip-shaped notch near the front of the cabinet, and the middle partition has a strip-shaped notch near the front of the cabinet, as well as a heat dissipation vent and a cable passage.
[0007] In a preferred embodiment of the adjustable battery capacity-classifying cabinet device provided by this utility model, the front panel of the cabinet is provided with a USB interface mounting hole, a power switch mounting hole, an indicator light mounting hole and an emergency stop switch mounting hole, the side panel is provided with a heat dissipation hole, an air switch mounting hole and a power interface mounting hole, and the bottom is provided with casters.
[0008] Compared with existing technologies, the adjustable battery capacity distribution cabinet device provided by this utility model has the following advantages:
[0009] 1. The solution provided by this utility model optimizes the opening of the cabinet panel and the structure of the internal partition of the cabinet, making the installation and layout of equipment and lines more reasonable.
[0010] 2. The solution provided by this utility model adds a battery holder to the bottom of the cabinet, which can quickly fix multiple batteries, prevent accidental movement and tipping, and enhance safety. Attached Figure Description
[0011] Figure 1 This is a schematic diagram of the front and side structure of the adjustable battery capacity distribution cabinet device;
[0012] Figure 2 This is a schematic diagram of the back structure of the adjustable battery capacity cabinet device;
[0013] Figure 3 This is a schematic diagram of the battery holder in Example 1;
[0014] Figure 4 This is a schematic diagram of the battery holder in Example 2.
[0015] The following components are labeled in the diagram: Cabinet 1, Casters 11, Upper Partition 12, Middle Partition 13, Lower Partition 14, Ventilation Vent 15, Cable Access Point 16, Side Panel 17, Ventilation Hole 18, Air Switch Mounting Hole 19, Power Interface Mounting Hole 20, USB Interface Mounting Hole 21, Power Switch Mounting Hole 22, Indicator Light Mounting Hole 23, Emergency Stop Switch Mounting Hole 24, Fixing Device 3, Slide Rail 31, Slider 32, Fixing Clamp 33, Fixing Knob 34. Detailed Implementation
[0016] The technical solutions of the present utility model will be clearly and completely described below with reference to the accompanying drawings of the embodiments of the present utility model. Obviously, the described embodiments are only some embodiments of the present utility model, and not all embodiments.
[0017] Example 1: Please also refer to Figures 1 to 3These are schematic diagrams of the front and back sides of the adjustable battery capacity distribution cabinet device provided by this utility model, and a schematic diagram of the battery holder 3 in the adjustable battery capacity distribution cabinet device.
[0018] The adjustable battery capacity-classifying cabinet device includes a cabinet 1 and a battery holder 3. The cabinet 1 has a vertical structure with casters 11 at the four corners of the bottom. The back is open and has a door installed via two hinges 25. To facilitate the demonstration of the internal structure of the cabinet 1, the door is not shown in the attached drawings, but this does not affect the understanding and implementation of this solution by those skilled in the art. Inside the cabinet 1, from top to bottom, there are horizontally arranged upper partition 12, middle partition 13, and lower partition 14. The front of the cabinet 1 is open below the middle partition 13 without a panel, while a panel is provided above the middle partition 13.
[0019] The upper partition 12 is narrower in the front-to-back direction than the interior width of the cabinet 1, maintaining a strip-shaped gap with the cabinet door. The middle partition 13 has a strip-shaped notch near the front of the cabinet 1, dividing it into two areas of different sizes. The larger area has multiple ventilation openings 15 and multiple cable routing openings 16. The lower partition 14 also has a strip-shaped notch near the front of the cabinet 1, dividing it into two areas of different sizes, with the larger area being larger than that of the middle partition 13 and the smaller area being smaller. Side panels 17 are vertically installed on both sides between the middle partition 13 and the lower partition 14, located between their notches.
[0020] The panels on both sides of the cabinet 1 are provided with a large number of heat dissipation holes 18. The left panel of the cabinet 1 has an air switch mounting hole 19 and a power interface mounting hole 20 at the top. The front panel of the cabinet 1 has a USB interface mounting hole 21, a power switch mounting hole 22, an indicator light mounting hole 23 and an emergency stop switch mounting hole 24 above the upper partition 12.
[0021] The battery holder 3 includes a slide rail 31, sliders 32, a fixing plate 33, and fixing knobs 34. Two slide rails 31 are fixedly installed parallel to each other at the bottom of the cabinet 1, parallel to the cabinet door. Nine sliders 32 are slidably mounted on each slide rail 31, with four sliders 32 at both ends having fixing knobs 34 on their outer sides. Tightening the fixing knobs 34 engages them with the slide rails 31, thus securing the sliders 32; untightening them releases the sliders 32.
[0022] The fixed clamps 33 are arranged perpendicular to the cabinet door, and each end is fixedly connected to a slider 32 on a slide rail 31. In addition to the two sliders 32 with fixed knobs 34, there are a total of seven fixed clamps 33. Two vertical plates are provided parallel to each other on the top of the fixed clamps 33, thus forming a groove between them that is arranged along the length of the fixed clamps 33.
[0023] Place the battery on the fixing plate 33, and the bottom structure of the battery engages with the groove on the top of the fixing plate 33. Push the fixing plate 33 to move it, so that all the fixing plates 33 and the battery are pressed together, and tighten the fixing knob 34 to fix the battery.
[0024] In implementation, the lower partition 14 is used to store the capacity distribution equipment, the middle partition 13 is used to store the capacity distribution equipment control module and heat dissipation equipment, and the upper partition 12 is used to store the power supply equipment. The mounting holes on the cabinet 1 are used to install the corresponding parts. Those skilled in the art can operate it using the same connection and usage methods as existing capacity distribution cabinets, so further details are omitted here.
[0025] Example 2: Please refer to Figure 4 This is a schematic diagram of the structure of the battery holder 3 in the adjustable battery capacity cabinet device provided by this utility model.
[0026] The adjustable battery capacity-classifying cabinet device includes a cabinet 1 and a battery holder 3. The structure of the cabinet 1 is the same as in Embodiment 1. The battery holder 3 includes a slide rail 31, a slider 32, a fixing plate 33, and a fixing knob 34, wherein the structures of the slide rail 31 and the slider 32 are the same as in Embodiment 1. The difference from Embodiment 1 is that the fixing plate 33 is a single-piece vertical plate structure. The four sliders 32 located at both ends are provided with fixing knobs 34 on the top.
[0027] Place the battery between adjacent fixing plates 33, and simultaneously place it on the sides of the two adjacent sliders 32. Push the fixing plates 33 to move, pressing all the fixing plates 33 against the battery, and tighten the fixing knob 34 to secure the battery.
[0028] The above description is merely an embodiment of this utility model and does not limit the patent scope of this utility model. Any equivalent structural or procedural transformations made using the content of this utility model specification, or direct or indirect applications in other related technical fields, are similarly included within the patent protection scope of this utility model.
Claims
1. An adjustable battery capacity-classifying cabinet device, comprising a cabinet, characterized in that: The cabinet has a door on the back, and inside, from bottom to top, there are battery holders, a lower partition, a middle partition, and an upper partition. The battery holder includes a slide rail, a slider, a fixing plate, and a fixing knob. Multiple slide rails are arranged parallel to each other at the bottom of the cabinet and parallel to the cabinet door. The same number of sliders slide on each slide rail. The sliders located at both ends of each slide rail are equipped with fixing knobs. The fixing plate is perpendicular to the cabinet door and is fixedly connected to one slider on each slide rail.
2. The adjustable battery capacity distribution cabinet device according to claim 1, characterized in that: The fixing plate is not located at the sliders at both ends of each of the slide rails.
3. The adjustable battery capacity distribution cabinet device according to claim 1, characterized in that: The top of the fixing plate is provided with a groove arranged along its length.
4. The adjustable battery capacity distribution cabinet device according to claim 1, characterized in that: The battery holder includes two slide rails, which are respectively located on opposite sides of the bottom of the cabinet, near and away from the cabinet door.
5. The adjustable battery capacity distribution cabinet device according to claim 1, characterized in that: The fixed knob is located on the top of the slider.
6. The adjustable battery capacity distribution cabinet device according to any one of claims 1 to 5, characterized in that: The area below the central partition on the front of the cabinet is open.
7. The adjustable battery capacity distribution cabinet device according to any one of claims 1 to 5, characterized in that: The upper partition is spaced apart from the panel on the back of the cabinet. The lower partition has a strip-shaped notch near the front of the cabinet. The middle partition has a strip-shaped notch near the front of the cabinet and is equipped with a heat dissipation vent and a cable routing port.
8. The adjustable battery capacity distribution cabinet device according to any one of claims 1 to 5, characterized in that: The front panel of the cabinet has mounting holes for a USB interface, a power switch, an indicator light, and an emergency stop switch. The side panels have mounting holes for ventilation, an air switch, and a power interface. The bottom is equipped with casters.